Carbon fiber composite discharge electrode with mechanical bias

The invention claimed is: 1. A discharge electrode for use in an electrostatic precipitator having a power supply connected to at least one collection electrode and a flow of gas and particles across the discharge electrode and the collection electrode, the discharge electrode comprising: (a) a non-conductive rod extending into the flow of gas, the rod having a first end attached to a support structure and an opposing, second end that is cantilevered into the flow of gas; (b) a plurality of conductive fibers forming at least one strand that extends along at least one side of the rod and is exposed to the flow of gas, wherein said at least one strand is electrically connected to the power supply; and (c) a bias mounted to the rod at a first bias end and seated against said at least one strand at a second bias end, the bias thereby applying a longitudinal force to said at least one strand to maintain said at least one strand substantially taut along said at least one side of the rod, wherein the bias further comprises a first support movably mounted to the rod near the second rod end and biased, by a spring mounted to the rod and seating against the first support, toward the second rod end, and wherein said at least one strand extends from near the first rod end over the first support and back toward the first rod end, wherein said first support thereby applies a force to said at least one strand to maintain said at least one strand in a substantially taut configuration. 2. The discharge electrode in accordance with claim 1 , wherein the bias further comprises a second support movably mounted to the rod near the second rod end and biased, by a second spring mounted to the rod and seating against the second support, toward the second rod end, and wherein said plurality of conductive fibers further comprises a second strand from near the first rod end over the second support and back toward the first rod end, wherein said second support thereby applies a force to said second strand to maintain said second strand in a substantially taut configuration, wherein said second strand is electrically connected to the power supply. 3. The discharge electrode in accordance with claim 2 , wherein said at least one strand comprises a group of carbon fibers seating against one another in a substantially parallel orientation and extending through the flow of gas. 4. The discharge electrode in accordance with claim 3 , wherein the group of fibers is spaced radially from the rod, and substantially parallel to the rod, for at least a substantial length of a portion of the rod that extends through the flow of gas. 5. The discharge electrode in accordance with claim 3 , wherein said at least one carbon fiber further comprises a group of carbon fibers that has been infiltrated by a matrix material to form a composite and said composite extends through the flow of gas. 6. The discharge electrode in accordance with claim 5 , wherein the carbon fibers include at least some nanofibers. 7. A discharge electrode for use in an electrostatic precipitator having a power supply connected to at least one collection electrode and a flow of gas and particles across the discharge electrode and the collection electrode, the discharge electrode comprising: (a) a non-conductive rod extending into the flow of gas, the rod having a first end attached to a support structure and an opposing, second end that is cantilevered into the flow of gas; (b) a first support moveably mounted to the rod near the second rod end having a first spring extending between the rod and the support in an at least partially compressed state; and (c) a plurality of conductive fibers forming a first strand that is electrically connected to the power supply and extends along the rod from the first rod end of the rod toward the second rod end, the first strand extends over the first support and along the rod toward the first rod end, wherein the first support imparts a longitudinal force to the first strand to maintain the first strand substantially taut along substantially opposing sides of the rod. 8. The discharge electrode in accordance with claim 7 , further comprising: (a) a second support moveably mounted to the rod near the second rod end having a second spring extending between the rod and the second support in an at least partially compressed state; and (b) a plurality of conductive fibers forming a second strand that is electrically connected to the power supply and extends along the rod from the first rod end toward the second rod end, the strand extends over the second support and along the rod toward the first rod end, wherein said second support imparts a longitudinal force to the strand to maintain said at least one strand taut along substantially opposing sides of the rod. 9. The discharge electrode in accordance with claim 8 , wherein the first and the second strands are made up of carbon fibers infiltrated by a polymer matrix to form a composite. 10. The discharge electrode in accordance with claim 9 , wherein: (a) the first support and the second support are coaxially aligned on, and slidable relative to, the rod; (b) the first spring is a coil spring coaxially mounted on the rod and seating against a first bushing rigidly mounted to the rod; (c) the second spring is a coil spring coaxially mounted on the rod and seating against a second bushing rigidly mounted to the rod; (d) a first aperture is formed near the first support through, and transverse to, the rod and through which the first strand passes; and (e) a second aperture is formed near the second support through, and transverse to, the rod through which the second strand passes. 11. The discharge electrode in accordance with claim 9 , wherein the first and the second strands extend through a gap formed between a tubular shield mounted substantially coaxially around the rod near the first rod end. 12. The discharge electrode in accordance with claim 11 , further comprising a bushing mounted to the rod between the first and second supports and the shield, the bushing interposed between the first and second strands and the rod to maintain a gap between the first and second strands and the rod.